oel

The OEL Technique Towards the Goal of Full - color Display

走向全色显示的有机电致发光技术

This paper mainly details the structure . property and technical progress of the LED and OEL .

本文主要介绍固体光源LED和EL的结构、特性和技术发展动向。

In this thesis , some basic research work is carried out based on OEL and OPV characteristics .

本论文基于此开展了一些探讨性的研究工作。

Difference in Luminescence Mechanism Between OEL and EL , OLED and LED

有机EL和LED与无机EL和LED发光机制的异同

Although there are controversies about the OEL of wood dust , it lacks still enough relevant health data to support .

虽然关于木粉尘的极限值的国际讨论持续已久，但仍缺乏更好支持其极限值推导的健康相关数据。

Objective To study the application of spot determination method and OEL in the evaluation by means of evaluation of some project 's occupational hazards control effect .

目的通过某项目职业病危害控制效果评价，探讨评价时现场测试方法与职业接触限值标准的应用。

The fabrication process is simpler and more easily compared with typical doping style or blurry interface style Eu3 + characteristic emission red OEL device .

与传统的掺杂型和模糊界面型Eu~（3+）特征红光有机电致发光器件相比，该方法的制备过程简单且易于控制。

However , there are exciplex emission in the interface between the RE complex and the hole transporting materials which limited the application of the rare earth complex for OEL .

但其往往易与空穴传输材料形成激基复合物，大大降低了器件的性能，这同时也限制了稀土配合物的应用。

Progress in study on carrier injection efficiency of OEL ( Organic Electroluminescence ) devices is presented in this paper , with the emphasis on factors such as electrode materials , structures and treatments .

文章从电极材料、结构、处理方法等角度出发，详细介绍了提高有机电致发光（EL）器件载流子注入效率的研究现状。

A unbalanced one-way random model is considered for assessing the proportion of workers whose mean exposure exceed the occupational exposure limit ( OEL ) based on exposure measurements to the worker .

在职业接触评价中，单因素随机模型可用于评价工人接触均值超过职业接触限值的概率。

Luminance of 210 cd / m 2 was achieved at drive voltage of 15.4 V. This is the highest luminance so far we know , obtained from the OEL cells with Tb complex as emitter .

在驱动电压为5V下，发光清晰可见，当驱动电压达到15.4V时，获得210cd／m2的发光，据知这是用Tb配合物做发射层的电致发光元件的最亮的发光。

The organic electroluminescence ( OEL ) is a hot spot of current research topics in the world . The rare earth complexes as OEL materials possess unique significance because of the high colour purity of their luminescence .

有机电致发光（OEL）是目前国际上一个热点研究课题，稀土配合物发光的色纯度高，作为OEL材料具有独特的意义。

Basing on typical doping bright green and red OEL devices , the OPV characteristics of the devices are discussed , and the contributions and effects of every organic functional layer on the OPV characteristic are discussed in particular .

在传统的基于掺杂的高亮度的红、绿光有机电致发光器件的基础上，研究了器件的光伏性能，详细讨论了各有机功能层对光伏性能的贡献及影响。

By optimizing device which eliminates the effect of exciplex formation on the properties of the device , the no-doping efficient blue OEL device is fabricated using Gd ( DBM ) 3bath as electron transporting material .

以Gd（DBM）3bath为电子传输材料，通过器件设计在一定程度上消除了激基复合物对器件性能的影响，制备了非掺杂的效率相对较高的蓝光电致发光器件。

Thee effect of structure ( including ligands , second ligands and central ions ) of the rare earth complexes as OEL materials on the luminescent properties and the relation between the electroluminescent performance and the photoluminescent performance of the materials were discussed .

讨论了稀土OEL材料的结构（包括配体、第二配体和中心离子）对其发光特性的影响，以及材料的电致发光性能与光致发光性能的关系。